心肌梗死后患者的电生理心室基质：心电图成象的无创特征。

The electrophysiological cardiac ventricular substrate in patients after myocardial infarction: noninvasive characterization with electrocardiographic imaging.

机构信息

Cardiac Bioelectricity and Arrhythmia Center, Washington University, St. Louis, Missouri 63130-4899, USA.

出版信息

J Am Coll Cardiol. 2011 Oct 25;58(18):1893-902. doi: 10.1016/j.jacc.2011.07.029.

DOI:10.1016/j.jacc.2011.07.029

PMID:22018301

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3365586/

Abstract

OBJECTIVES

The aim of this study was to noninvasively image the electrophysiological (EP) substrate of human ventricles after myocardial infarction and define its characteristics.

BACKGROUND

Ventricular infarct border zone is characterized by abnormal cellular electrophysiology and altered structural architecture and is a key contributor to arrhythmogenesis. The ability to noninvasively image its electrical characteristics could contribute to understanding of mechanisms and to risk-stratification for ventricular arrhythmia.

METHODS

Electrocardiographic imaging, a noninvasive functional EP imaging modality, was performed during sinus rhythm (SR) in 24 subjects with infarct-related myocardial scar. The abnormal EP substrate on the epicardial aspect of the scar was identified, and its location, size, and morphology were compared with the anatomic scar imaged by other noninvasive modalities.

RESULTS

Electrocardiographic imaging constructs epicardial electrograms that have characteristics of reduced amplitude (low voltage) and fractionation. Electrocardiographic imaging colocalizes the epicardial electrical scar to the anatomic scar with a high degree of accuracy (sensitivity 89%, specificity 85%). In nearly all subjects, SR activation patterns were affected by the presence of myocardial scar. Late potentials could be identified and were almost always within ventricular scar.

CONCLUSIONS

Electrocardiographic imaging accurately identifies areas of anatomic scar and complements standard anatomic imaging by providing scar-related EP characteristics of low voltages, altered SR activation, electrogram fragmentation, and presence of late potentials.

摘要

目的

本研究旨在无创性地对心肌梗死后人心室的电生理（EP）基质进行成像，并定义其特征。

背景

心室梗死交界区的特点是细胞电生理学异常和结构结构改变，是心律失常发生的关键因素。能够无创性地对其电特性进行成像，有助于理解机制，并对室性心律失常进行风险分层。

方法

心电图成像是一种非侵入性的功能性 EP 成像方式，在 24 例与心肌梗死相关的心肌瘢痕患者的窦性节律（SR）期间进行。确定了瘢痕心外膜面异常 EP 基质的位置、大小和形态，并与其他非侵入性方式成像的解剖瘢痕进行了比较。

结果

心电图成像构建的心外膜电图具有幅度降低（低电压）和碎裂的特征。心电图成像是以高度的准确性将心外膜电瘢痕与解剖瘢痕进行共定位（灵敏度 89%，特异性 85%）。在几乎所有患者中，SR 激活模式均受心肌瘢痕的影响。可以识别迟发电位，且几乎总是在心室瘢痕内。

结论

心电图成像能准确识别解剖瘢痕的区域，并通过提供与瘢痕相关的 EP 特征（低电压、改变的 SR 激活、电描记图碎裂和迟发电位的存在）来补充标准解剖成像。

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